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组织因子通过结构和动力学变化激活因子 VIIa 中的变构网络。

Tissue factor activates allosteric networks in factor VIIa through structural and dynamic changes.

机构信息

Haemophilia Biochemistry, Novo Nordisk A/S, Måløv, Denmark; DTU Chemistry, Technical University of Denmark, Kgs. Lyngby, Denmark.

出版信息

J Thromb Haemost. 2015 Feb;13(2):262-7. doi: 10.1111/jth.12791. Epub 2014 Dec 12.

DOI:10.1111/jth.12791
PMID:25403348
Abstract

BACKGROUND

Tissue factor (TF) promotes colocalization of enzyme (factor VIIa) and substrate (FX or FIX), and stabilizes the active conformation of FVIIa. Details on how TF induces structural and dynamic changes in the catalytic domain of FVIIa to enhance its efficiency remain elusive.

OBJECTIVE

To elucidate the activation of allosteric networks in the catalytic domain of the FVIIa protease it is when bound to TF.

METHODS

Long-timescale molecular dynamics simulations of FVIIa, free and in complex with TF, were executed and analyzed by dynamic network analysis.

RESULTS

Allosteric paths of correlated motion from the TF contact point, Met306, in FVIIa to the active site triad can be described and quantified. In particular, the shortest paths from Met306 to Ser344 and His193 are 16% and 8% longer in free FVIIa than in TF-FVIIa, and they encompass previously undiscovered residue-residue interactions that are not likely to be inferred from mutagenesis studies. Furthermore, paths from Met306 to Ile153 (N-terminus) and Trp364, both representing hallmark residues of allostery, are 7% and 37% longer, respectively, in free FVIIa. Thus, there is significantly weaker coupling between the TF contact point and key residues in the catalytic domain of FVIIa, causing the active site triad to disintegrate in the simulation when TF is not present.

CONCLUSIONS

These findings complement our current understanding of how the protease FVIIa is stimulated by TF. We demonstrate allosteric networks in the catalytic domain that are activated by TF and help to make FVIIa an efficient catalyst of FIX and FX activation.

摘要

背景

组织因子(TF)促进酶(因子 VIIa)和底物(FX 或 FIX)的共定位,并稳定 FVIIa 的活性构象。关于 TF 如何诱导 FVIIa 催化结构域的结构和动力学变化以提高其效率的细节仍不清楚。

目的

阐明当与 TF 结合时,FVIIa 蛋白酶催化结构域中变构网络的激活。

方法

对 FVIIa、游离态和与 TF 复合物态进行长时程分子动力学模拟,并通过动态网络分析进行分析。

结果

可以描述和量化从 TF 接触点 Met306 到活性位点三联体的相关运动的变构途径。特别是,在游离 FVIIa 中,从 Met306 到 Ser344 和 His193 的最短路径比在 TF-FVIIa 中长 16%和 8%,并且它们包含以前未发现的不太可能从突变研究推断的残基-残基相互作用。此外,从 Met306 到 Ile153(N 端)和 Trp364 的路径分别长 7%和 37%,这两个路径均代表变构的标志性残基。因此,TF 接触点与 FVIIa 催化结构域中的关键残基之间的耦合明显较弱,导致当 TF 不存在时,模拟中活性位点三联体解体。

结论

这些发现补充了我们目前对 TF 如何刺激蛋白酶 FVIIa 的理解。我们展示了由 TF 激活的催化结构域中的变构网络,这有助于使 FVIIa 成为 FX 和 FIX 激活的有效催化剂。

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